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• Visual screening of unsightly views and noise buffering
with shrubs should be sought.
• Screening and / or fencing with shrubs can add to safe
circulation around or away from portals.
• The portal may present opportunities to integrate
‘green street’ applications.
1STREETSCAPES
The streetscape is the composition of elements in and adjacent
to a street that defines the urban form and includes elements
such as building forms and styles, landscape materials, street
furniture, paving etc. The streetscape along the Regional
Connector and the adjacent streetscapes are the unifying
element of the project that integrates all other urban design
components.
LAYOUT
Streetscapes may include adjacent plazas and pocket parks and
include the following recommended zones:
• An ‘access zone’ immediately adjacent to the curb;
• A ‘parkway zone’;
• A continuous ‘walkway zone’; and
• Depending on adjacent uses, may include a
‘transitional or amenity zone’.
The access zone is a minimum 18" – 24" from the face of the
curb including a 6" curb and a masonry, often granite or brick
band. The parkway zone is adjacent to the access zone and
is, ideally, a continuous ‘green street’ stormwater treatment
system designed to collect, retain or treat stormwater runoff.
The parkway zone may however integrate and include site
furnishings. The transition or amenity zone may include
landscape planting and site furnishing depending on the
adjacent land uses.
PLANTING MATERIAL GUIDELINES
The following are guidelines unique to streetscapes. Otherwise,
please see the General Planting Material Guidelines for further
direction.
• Trees should have the same characteristics on both sides of
the streets.
• A planting strip may be appropriate in a streetscape taking
the form of a large area between the sidewalk and the curb
and where pedestrian circulation volumes are low and a
‘green street’ planter is not applicable.
• In addition to trees, the streetscape planting strip may
include shrubs, groundcovers and turf (turf is recommended
to be used sparingly or in a very unique design solution).
• Planting strips should be at least 5' wide to accommodate
irrigation systems and to provide adequate room for healthy
tree root systems.
• For planter strips that are less than 5' wide and where
‘green street’ planters are not an option, groundcovers or
paving may be considered. Preferred groundcover widths are
between 2' to 4'. Pervious paving is recommended where
widths are less than 2' and where pedestrian traffic occurs.
• Streetscape planter strips should not be elevated above
curbs except to provide positive drainage.
0 Pedestrian streetscape with adjacent plaza.
0 Examples of different pedestrian streetscape treatments.
0 Examples of raised streetscape planter strips.
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2.3.2.2 ECO FEATURES
1'GREEN STREET' INFILTRATION PLANTERS OR RAINGARDENS
A raingarden is a planted depression or swale that allows
rainwater runoff to be absorbed from impervious urban
surfaces like roofs, driveways, walkways and compacted lawn
areas. Runoff is reduced by allowing stormwater to soak
into the ground ‘on-site’ instead of flowing into storm drains
and surface waters which promote erosion, water pollution,
flooding and diminished groundwater.
Native plants are recommended for raingardens primarily for
maintenance purposes as they generally don’t require fertilizer
and are more tolerant of the local climate, soil and water
conditions. A selection of wetland edge vegetation, such as
wildflowers, sedges, rushes, ferns, shrubs and small trees,
absorb excess water flowing into the raingarden. Water filters
through soil layers before entering the groundwater system.
Root systems enhance infiltration, moisture redistribution,
and diverse microbial populations involved in biofiltration. Also,
through the process of transpiration, raingarden plants return
water vapor into the atmosphere.
Ferns, grasses — especially ‘native’ grasses — and sedges are
excellent plant materials for a raingarden. These plants love
the sun and can exist in a variety of shapes, sizes and shades
of green. Ferns require specific consideration as they require
shade from a street tree, structure or building.
1ECOROOF — GREEN ROOF
A green roof is a roof of a building or structure that is partially
or completely covered with a vegetation system. The system is
typically composed of sedum, herbs, grasses and / or bulbs. The
plants grow in a layer of engineered growing medium or soil.
The vegetation and medium are contained by a waterproofing
membrane and may also include additional layers such as a root
barrier and drainage and may include an irrigation system.
1GREEN WALL
There are two major categories of green walls: (1) green
façades; and (2) living walls.
Green façades are wall systems where climbing plants or
cascading groundcovers are trained to cover specially designed
supporting structures. Plant materials can be rooted at the
base of the structures, in intermediate planters or on rooftops.
Green façades can be attached to existing walls or built as
freestanding structures. Living walls (also called biowalls,
‘mur’ vegetal or vertical gardens) are composed of pre-
vegetated panels or integrated fabric systems that are affixed
to a structural wall or frame. Modular panels can be comprised
of polypropylene plastic containers, geotextiles, irrigation and
growing medium and vegetation. This system supports a great
diversity of plant species, including a mixture of groundcovers,
ferns, low shrubs, perennial flowers and edible plants. Living
walls perform well in full sun, shade and interior applications,
and can be used in both tropical and temperate locations.
Based on current applications and data from the experience
of green roofs, green walls can offer considerable cost savings
to both the public and private sectors. For example, the
reintroduction of vegetation into cities has been correlated
with the reduction of the urban heat island effect, and
therefore will reduce energy consumption. Cities are cooler and
quieter through shading, evaporative transpiration and the
absorption of sound by green walls (Source: Things You Need
to Know About Green Walls, By Randy Sharp, MBCSLA, MCSLA,
ASLA, LEED AP, July 1, 2007, Building Design and Construction).
1BIOSWALES
‘Urban’ bioswales are landscape elements designed to remove
silt and pollution from surface runoff water. They consist of a
swaled drainage course with gently sloped sides (less than 6%)
and filled with vegetation, compost and / or riprap. The waters
flow path, along with a wide and shoulder ditch, is designed to
maximize the time water spends in the swale, which aids the
trapping of pollutants and silt. Depending upon the geometry
of land available, a bioswale may have a meandering or almost
straight channel alignment. Runoff from a bioswale is typically
conveyed to a stormwater system.
1PLANT MATERIALS
Landscape plant materials are living, dynamic, sustainable
natural systems that define form, space and order in the
urban environment. The design intent for the use of plant
material is to provide for the health safety and welfare of
people and our environment. Plant material also adds interest,
ornamentation and when thoughtfully located, can provide
aesthetic continuity, reduce noise and reduce pollution. Relief
from exposure to the elements and to unsightly elements
may be achieved by landscape screens and tree canopies.
All planting material should fit the climate, design character
and maintenance requirements for which they are planted.
Urban environments present unique challenges to the health
of vegetation including the effects of pollution, and damage
from pedestrians, maintenance and automobiles. Specific
site conditions must be fully understood prior to plant
selection. Micro-climates and soil conditions are key factors
that determine where and which plant material will thrive.
Ultimately, plant material should be selected that is safe,
maintenance friendly and use / treat water efficiently and
effectively.
0 Green walls give character to otherwise blank surfaces.
0 Green roofs absorb energy from the sun and cool the building below.
0 Raingardens collect water from impervious surfaces to support landscaped planters.
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2.3.3 GENERAL LANDSCAPE PLANTING MATERIAL GUIDELINES
2.3.3.1 TREES
Trees are generally the most monumental and enduring of
the plant materials and can ultimately determine the success
of a landscape design. Significant to trees are their presence,
character and role in the landscape. Trees vary in shape, color,
texture and scale, and can be a focal point in the form of a
specimen or massed to define a space. They can frame and / or
screen views, noise and wind, and provide shelter in the form of
shade and wildlife habitat. Trees can be a valuable component
of stormwater treatment and management and help to clean
the air. Specific to urban design, trees can unify districts
visually and create continuous pedestrian-scale spaces that link
commercial and non-commercial streets and neighborhoods.
The urban environment is more comfortable and safe when
there are trees to provide shade, beauty and amenity. For
recommended street trees, please see Fig. 14 (left).
1LOCATION
• Protect and preserve existing trees to be saved.
• The placement of street trees should respond to the use
of the street as well as adjacent land uses. A variety of
species that have similar characteristics are encouraged for
continuity and to avoid the challenges of over planting a
single species.
• Plant only a single species where the design concept is to
unify an area.
• Plant trees for mature growth that will fit a space or define
the desired public space.
• Consider mature tree size and maintenance while designing
to avoid conflicts with signs, lights, overhead and
underground utilities, utility poles and fire hydrants. Ensure
that trees have adequate room to grow.
• Plant trees 25' on center for most species. Reduced spacing
may be appropriate depending on the space and species.
• When planting or replacing trees adjacent to existing trees,
select new trees of similar characteristics to those being
replaced including form, scale, texture, and color.
• Maintain minimum sight triangle and corner triangle
distances for safe view of oncoming traffic and pedestrians.
• Trees must not interfere with visibility of traffic control
devices, especially at intersections.
• Trees adjacent to alleys should be located per code.
• Trees should be located a minimum of 54" from the face
of the curb.
• The location of trees should not conflict with the
performance of street lights. Individual species and site
conditions will vary.
• All trees should be located and adjusted as necessary to
ensure the drivers visibility of regulatory signs.
1SIZE
• Trees should be large enough when planted to provide
beneficial shade and meet the design criteria for which they
are intended (eg. street trees should define the clear route
of travel and when appropriate create a sense of separation
from automobile circulation).
• Street trees in tree grates (high pedestrian traffic areas)
should be 3" caliper minimum with high branching for a
variety of reasons, including pedestrian safety.
• The branching height of mature trees on the pedestrian side
of the street should be no less than 8' above the sidewalk.
• The branching height of mature trees on the automobile
traffic side of the street should be no less than 13' – 6" above
the sidewalk. Special consideration should be given to the
location and maintenance of trees adjacent to bus stops.
1SELECTION
• Street trees should be thornless and fruitless to minimize
pedestrian hazards and maintenance. The form should ideally
be single trunked with upright growth. Trees should be
strong wooded, resistant to disease and insects and have a
medium to long life expectancy.
• Trees selected to be located adjacent to station area
identification signage and retail store fronts should not
obstruct signage.
• Trees that require minimal water should be considered.
Irrigation must be designed to deliver the appropriate
amount of water to each tree with minimal waste until
the tree is established (typically two years). Ideally, trees
will provide water quality treatment characteristics as a
component of a stormwater drainage treatment system.
• Small varieties of thornless and fruitless trees may be
used where lower branching habit will not interfere with
pedestrians, vehicles or driver visibility.
1AMERICAN SWEETGUMLIQUIDAMBAR STYRACIFLUA
• Medium-sized tree growing 65 to 115' tall, with a trunk up to 6.5' in diameter.
• The leaves look somewhat similar to maples; are a dark green and glossy, and in most cases turn orange, red, and purple colors in autumn.
1TORREY PINENUTPINUS TORREYANA
• A broad, open-crowned pine growing 25 to 50' tall with long needles growing in groups of five.
• Grows slowly in dry, sandy soil.
1LONDON PLANEPLATANUS X HISPANICA
• Large deciduous tree growing from 65 to 115' tall, with a trunk up to 10' or more in circumference.
• Its leaves are thick and stiff-textured and the bark is usually pale grey-green and smooth.
1CALIFORNIA FAN PALMWASHINGTONIA FILIFERA
• Native to Southern California;• Grows up to 75' in good growing conditions. • When the leaves die they bend downwards and
form a skirt around the trunk.
1INDIAN LAUREL FIGFICUS NITIDA
• A small to medium-sized evergreen tree with smooth gray bark, aerial roots, upright growing branches and very dense foliage.
• Grows 30 to 60' tall, with a 30' spread; does well in full sun.
FIG. 14RECOMMENDED STREET TREES
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2.3.3.2 SHRUBS — DESIGN PRINCIPLE
Shrubs are the most varied and versatile of planting materials
and provide numerous shapes, colors and textures. Shrubs can
be ornamental and often massed to define space. They frame
and / or screen views, help buffer noise and screen against
wind. Shrubs are also elemental in stormwater treatment and
stormwater management and help clean the air. Specific to
urban design, shrubs must be carefully selected and located
so as not to create unsafe conditions (eg. define spaces that
are not defensible and feel unsafe). Shrubs can unify districts
visually and create continuous pedestrian-scale spaces that link
commercial and non-commercial streets and neighborhoods.
Shrubs make the urban environment more comfortable and
safe by providing beauty and streetscape amenity.
For recommended shrubs, please see Fig. 15 (left).
1LOCATION
• Locate shrubs to define focal point (eg. specimen planting).
• Massing / grouping: locate masses or groups of shrubs to be
a focal for ornament.
• Locate shrubs to screen unsightly views, wind and noise.
• Locate shrubs to provide fencing for safety.
• Locate shrubs to define access and circulation routes.
1SIZE
Anticipate full growth. However, the installed plant size should
be large enough and in quantity to provide the intended effect.
1BUSH POPPYDENDROMCON RIGIDA / D. HARFORDII
• A native California evergreen shrub growing up to 6' tall.• Can be maintained at 3'.• Leaves are blue-gray-green and the bush is covered in yellow blooms.• Very drought tolerant once established.
1COFFEEBERRYRHAMNUS CALIFORNICA
• Attractive native California shrub, 6 to 8' high. • Bears black berries and tolerates all soil types. • Ideal as a background or screen plant.
1CHRISTMAS BERRY, HOLLY BERRY OR TOYONHETEROMELES ARBUTIFOLIA
• This California native is an evergreen shrub that produces delicate white flowers and large clusters of red berries that birds love.
• Can be pruned into a small tree.
1CLEVELAND SAGESALVIA CLEVELANDII
• A California native with graceful silvery-green leaves, arching branches, and whorls of purple flowers in spring and summer.
• Grows up to 4' tall.
1REDBERRYRHAMNUS CROCEA
• Medium evergreen California native shrub. • Grows 4 to 10' tall, as wide as it is tall. • Tight clusters of small, waxy, pinkish-white flowers give way to red
berries in springtime.
FIG. 15RECOMMENDED SHRUBS